Preparation and characterization of novel ultra-high molecular weight polyethylene composite fibers filled with nanosilica particles
出版日期:2013-04-01 00:00:00
著者:Yeh, Jen-Taut; Wang, Chuen-Kai; Yeh, Alice; Huang, Lu-Kai; Wang, Wen-Hung; Hsieh, Kuo-Huang; Huang, Chi-Yuan; Chen, Kan-Nan
單位:淡江大學化學學系
出版者:Chichester: John Wiley & Sons Ltd.
著錄名稱、卷期、頁數:Polymer International 62(4), pp.591-600
摘要:Ultrahigh molecular weight polyethylene (UHMWPE)/nanosilica (F2Sy) and UHMWPE/modified nanosilica (F2Smx-y) as-prepared fibers were prepared by spinning of F2Sy and F2Smx-y gel solutions, respectively. Modified nanosilica particles were prepared by grafting maleic anhydride grafted polyethylenes onto nanosilica particles. The achievable draw ratios (Dra) of F2Sy and F2Smx-y as-prepared fibers approached a maximal value as the original and modified nanosilica contents reached corresponding optimum values; the maximal Dra value obtained for F2Smx-y as-prepared fiber specimens was significantly higher than that of the F2Sy as-prepared fiber specimens prepared at the optimum nanosilica content. The melting temperature and evaluated lamellar thickness values of F2Sy and F2Smx-y as-prepared fiber series specimens decrease, but crystallinity values increase significantly, as their original and modified nanosilica contents respectively increase. Similar to the achievable drawing properties of the as-prepared fibers, the orientation factor, tensile strength (σf) and initial modulus (E) values of both drawn F2Sy and F2Smx-y fiber series specimens with a fixed draw ratio reach a maximal value as the original and/or modified nanosilica contents approach the optimum values; the σf and E values of the drawn F2Smx-y fiber specimens are significantly higher than those of the corresponding drawn F2Sy fiber specimens prepared at the same draw ratios and nanosilica contents but without being modified. To understand the interesting ultradrawing, thermal, orientation and tensile properties of F2Sy and F2Smx-y fiber specimens, Fourier transform infrared, specific surface area and transmission electron microscopy analyses of the original and modified nanosilica were performed in this study.
關鍵字:ultradrawing; nanosilica; ultrahigh molecular weight polyethylene
語言:en_US
ISSN:0959-8103 1097-0126
期刊性質:國外
收錄於:SCI
通訊作者:Yeh, Jen-Taut
國別:GBR
出版型式:紙本 電子版